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Development of a total maximum daily load (TMDL) for acid-impaired lakes in the Adirondack region of New York
Abstract Acidic deposition has impaired acid-sensitive surface waters in the Adirondack region of New York by decreasing pH and acid neutralizing capacity (ANC). In spite of air quality programs over past decades, 128 lakes in the Adirondacks were classified as “impaired” under Section 303(d) of the Clean Water Act in 2010 due to elevated acidity. The biogeochemical model, PnET-BGC, was used to relate decreases in atmospheric sulfur (S) and nitrogen (N) deposition to changes in lake water chemistry. The model was calibrated and confirmed using observed soil and lake water chemistry data and then was applied to calculate the maximum atmospheric deposition that the impaired lakes can receive while still achieving ANC targets. Two targets of ANC were used to characterize the recovery of acid-impaired lakes: 11 and 20 μeq L−1. Of the 128 acid-impaired lakes, 97 currently have ANC values below the target value of 20 μeq L−1 and 83 are below 11 μeq L−1. This study indicates that a moderate control scenario (i.e., 60% decrease from the current atmospheric S load) is projected to recover the ANC of lakes at a mean rate of 0.18 and 0.05 μeq L−1 yr−1 during the periods 2022–2050 and 2050–2200, respectively. The total maximum daily load (TMDL) of acidity corresponding to this moderate control scenario was estimated to be 7.9 meq S m−2 yr−1 which includes a 10% margin of safety.
Highlights A total maximum daily load was developed for 128 acid-impaired Adirondack lakes. Hindcast simulations were used to estimate pre-anthropogenic conditions. Controlling S deposition is much more effective in recovering acidic lakes than N. Recovery classes: no additional control; additional control needed; no recovery. Adirondack lake-watersheds will not recover to pre-anthropogenic conditions.
Development of a total maximum daily load (TMDL) for acid-impaired lakes in the Adirondack region of New York
Abstract Acidic deposition has impaired acid-sensitive surface waters in the Adirondack region of New York by decreasing pH and acid neutralizing capacity (ANC). In spite of air quality programs over past decades, 128 lakes in the Adirondacks were classified as “impaired” under Section 303(d) of the Clean Water Act in 2010 due to elevated acidity. The biogeochemical model, PnET-BGC, was used to relate decreases in atmospheric sulfur (S) and nitrogen (N) deposition to changes in lake water chemistry. The model was calibrated and confirmed using observed soil and lake water chemistry data and then was applied to calculate the maximum atmospheric deposition that the impaired lakes can receive while still achieving ANC targets. Two targets of ANC were used to characterize the recovery of acid-impaired lakes: 11 and 20 μeq L−1. Of the 128 acid-impaired lakes, 97 currently have ANC values below the target value of 20 μeq L−1 and 83 are below 11 μeq L−1. This study indicates that a moderate control scenario (i.e., 60% decrease from the current atmospheric S load) is projected to recover the ANC of lakes at a mean rate of 0.18 and 0.05 μeq L−1 yr−1 during the periods 2022–2050 and 2050–2200, respectively. The total maximum daily load (TMDL) of acidity corresponding to this moderate control scenario was estimated to be 7.9 meq S m−2 yr−1 which includes a 10% margin of safety.
Highlights A total maximum daily load was developed for 128 acid-impaired Adirondack lakes. Hindcast simulations were used to estimate pre-anthropogenic conditions. Controlling S deposition is much more effective in recovering acidic lakes than N. Recovery classes: no additional control; additional control needed; no recovery. Adirondack lake-watersheds will not recover to pre-anthropogenic conditions.
Development of a total maximum daily load (TMDL) for acid-impaired lakes in the Adirondack region of New York
Fakhraei, Habibollah (author) / Driscoll, Charles T. (author) / Selvendiran, Pranesh (author) / DePinto, Joseph V. (author) / Bloomfield, Jay (author) / Quinn, Scott (author) / Rowell, H. Chandler (author)
Atmospheric Environment ; 95 ; 277-287
2014-06-19
11 pages
Article (Journal)
Electronic Resource
English
Fenholloway River and Estuary Total Maximum Daily Load (TMDL) Development, Taylor County, Florida
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